There are 3 repositories under dark-matter topic.
Dark Matter GRUB Theme 👾💙
A small but powerful nbody gravity simulator with a built-in renderer
The Galacticus galaxy formation model
Noble Element Simulation Technique is used to simulate noble-element energy deposition microphysics.
A Galaxy-Galaxy Lensing Python Package
The Light Dark Matter eXperiment simulation and reconstruction framework.
Transformer-guided diffusion for galaxy clustering. Code repository associated with https://arxiv.org/abs/2311.17141
Probing the nature of dark matter by inferring the dark matter particle mass with machine learning and stellar streams.
First version of the code - last update Dec 2015
Simulations of cosmological scalar fields
Deep learning project focused on dark matter searches
Project focused on understanding the fundamental nature of dark matter with LSST
Code and results for the disruption of axion miniclusters (AMCs) in the Milky Way, as well as radio signals from encounters between AMCs and neutrons stars.
Dark Matter Simulation Code for Underground Scatterings - Crust Edition
Python analysis tools for TES detector related R&D.
Analysis pipeline capable of searching for dark compact objects in the Milky Way through astrometric lensing in real or mock Gaia DR4 data.
Baseline for MLHEP 2021 competitions
Analytic expressions for the Dekel-Zhao parametrisation of dark matter haloes.
Provides tables of high-accuracy atomic ionisation factors, which are used to calculate atomic ionisation rates. Example programs calculate dark-matter-electron-induced ionisation rates, and electron-impact ionisation rates
exo21cmFAST: 21cmFAST with exotic energy injection
Associated data release to the search for mergers of stellar-mass and sub-solar mass black holes
Velocity Distributions from Necib, Lisanti, Belokurov 2018, with fractions from Necib, Lisanti, Garrisson-Kimmel et al. 2018
This repository provides helpful tools for DM search analysis using detectors studied by the Pyle Group.
Constrain Macro-DM with lightning, on Earth and Jupiter.
A simple program integrating Boltzmann Equation for a freeze-out model where we consider only self-annihilation for dark matter. We integrate only in the non-relativistic period. For integration, we use both odeint and a self-made function using Euler's Method for explicit numerical integration.
My Journey in Theoretical Cosmology and Advanced Computational Astrophysics through the various related projects with Python using Data Science and Analytics techniques.
Dark photon conversions in our inhomogeneous Universe. Code repository associated with the papers https://arxiv.org/abs/2002.05165 and https://arxiv.org/abs/2004.06733.
Studying the effects of resonant photon injection in 21-cm observations. Code repository associated with the paper https://arxiv.org/abs/2009.03899.